JP7084401B2 - container - Google Patents

Description

The present invention relates to a container that is at least partially filled and closed, particularly formed according to blow molding-, filling-and sealing methods, wherein the container is at least one partially filled container. Consisting of a body, the container is at least partially closed by a head membrane on the termination side, and the container has a cap portion with a sealing portion, the sealing portion having a hollow protrusion to remove the contents of the container. The piercing part of the shape (“spikes”) allows penetration from the outside by a pre-determined operating force in the approach direction, and the piercing part is removed from the container again by a pre-determined pull-out force in the opposite pull-out direction. be able to.

Containers made of plastic according to the blow-fill-seal method (BFS), also known as the registered trademark bottelpack method, are widely applied for medical purposes, especially in the form of injection bottles. Therefore, this type of container is particularly suitable for medical applications. This is because the filler only comes into contact with the polymer. This type of container is a prior art. For example, Patent Document 1 (US Pat. No. 5,395,365) shows this form of container. To ensure easy and secure handling of this type of container in medical practice, the sealing part-as described in EN8536-4-, for example-is reliable when and after piercing the piercing part of the infusion device. A seal must be formed.

Two additional requirements, which are inconsistent in principle, must be met at the same time, i.e., despite the smallest possible piercing force, the piercing portion can only be pulled out against a sufficiently large pulling force. Retention / retention to ensure that the patient is moved to some extent during the often long infusion administration, and thus to allow the patient to move freely without interruption of the infusion by unintended withdrawal of the infusion device. Strength must be guaranteed. Therefore, according to the standard ISO 15759: 2006, the holding force of the injection device is required to be a value not less than 15N. On the other hand, this standard rule allows piercing forces up to 80N.

However, experiments that achieve sufficient holding power by allowing high piercing force are not practical. This is because nursing staff should not provide high piercing power, especially with gloves. These fundamentally contradictory requirements, easy to pierce, but difficult to pull out, cannot be met by other simple measures, such as arrow-shaped piercings, such as undercuts or barbs. This is because, on the one hand, non-sealing of the sealing part may occur, and on the other hand, this kind of geometric arrangement of the insertion part contradicts the standard EN ISO 8536-4: 2013. ..

For example, Patent Document 2 (German Patent Application Publication No. 102004051300 (B3)), Patent Document 3 (European Patent No. 145742429 (B1)) and Patent Document 4 (International Publication No. 2014/114685 (A1)). ), The known closure caps do not meet the above-mentioned fundamentally contradictory requirements. In these documents, hollow plugs are proposed to facilitate piercing. Patent Document 2 shows that one side of the notch in the elastomer for the piercing process is oriented outward. In Patent Document 3 and Patent Document 4, one side of the notch in the elastomer for the piercing protrusion is formed toward the container side. From there, the mechanism for increasing the binding force has not been clarified. In Patent Document 4,-as shown in FIG. 2 of the document-pulling out the piercing process is facilitated rather than difficult by a special funnel-shaped step.

U.S. Pat. No. 5,395,365 German Patent Application Publication No. 102004051300 (B3) European Patent No. 1457429 (B1) International Publication No. 2014/114685 (A1)

With respect to the above-mentioned problems, an object of the present invention is to provide a container of the species concept mentioned at the beginning, which takes into consideration the requirements imposed when using the container to a special extent.

According to the present invention, this problem is solved by the container of the species concept mentioned at the beginning, which has the characteristics of claim 1 as a whole.

According to it, the present invention is provided with a device that makes it difficult to remove the piercing portion, which is used to increase the pull-out force, which at least makes unintended removal of the piercing portion difficult. It is characterized by the fact that the piercing force is not increased.

In a particularly preferred embodiment, the seal portion is used as a component of the device that makes it difficult to remove the puncture portion, as follows, when the seal portion as a component of the device is penetrated into the cap portion of the container body as follows. It is housed so that there is a radial spacing between the passage opening in the cap portion and the inserted piercing portion, and at least when the piercing portion is removed from the container in the pull-out direction. The spacing is at least partially filled with a sealing portion as another component of the device to increase friction at least to the puncture site, at least in areas, when the puncture site is removed from the container. During the pulling motion, the material of the sealing portion is pushed by satisfying the radial spacing, thereby forming a friction and compression zone in the passage opening in the cap portion to prevent the pulling motion.

The passage opening in the cap portion preferably defines an annular passage along with the outer circumference of the inserted puncture portion, the annular passage forming a raised overhang with respect to the perimeter when the puncture portion is removed from the container. However, it is completely filled by other parts of the device so that the device is tightened in the annular passage and exerts additional tightening force on the piercing part.

Particularly preferably, the sealing portion is made of an elastomeric material, preferably soft. The seal extends between the cap portion and the head membrane of the head portion of the container and preferably has a recess at the end of the head portion of the container opposite to the head membrane.

In a preferred embodiment, the seal portion has a geometric arrangement of another seal ring shape that extends axially in the direction of the head membrane on the extension of the recess at the end of the container head portion towards the head membrane. It has, at least as the piercing portion enters, can be supported to seal on the facing upper side of the head portion of the container. This forms another seal on the head membrane that surrounds the perforation site.

The passage opening of the cap portion can be covered towards the perimeter with a removable flap portion, foil or the like, thereby ensuring a secure covering of the sealing portion when the container is stored before use. Can be guaranteed. In the following, an embodiment mainly having a flap portion is shown, which can be easily realized by a foil as well.

The cap portion, preferably formed of a rigid plastic material, can be coupled to the collar of the container below the head portion of the container.

Preferably, within the head portion, at least one additional sealing portion, such as a sealing portion provided for the cannula passage, can be accommodated. This second sealing portion can be made of a different material than the first sealing portion and / or can have other geometric shapes and thus can be easily adapted for application. Thereby, the container creates multiple applicability, eg, the possibility of charging additives by punching through other sealing members by means of an injection cannula.

According to claims 14 to 21, the object of the present invention is also a cap portion provided for the container according to claims 1 to 13.

Hereinafter, the present invention will be described in detail with reference to the examples shown in the drawings.

It is a front view which shows the known injection container in almost half the size. It is a front view which shows the other known injection container in almost half the size. It is a perspective view which shows the cap part of an Example slightly enlarged and separately. FIG. 1a is a slightly enlarged cross-sectional view showing the head portion of the container of FIG. 1a together with the cap portion attached to it, in which case the flexible head membrane of the head portion is shown in an undeformed position before attaching the cap portion. In that case, the head portion corresponds to the head portion of FIG. 2a. FIG. 1a is a slightly enlarged cross-sectional view showing the head portion of the container of FIG. 1a together with the cap portion attached to it, in which case the flexible head membrane of the head portion is shown in an undeformed position before attaching the cap portion. Has been done. The cross-sectional view corresponding to FIG. 3a shows the state during the piercing motion of the piercing portion in order to carry out the process of removing the contents of the container in that case. It is a display corresponding to FIG. 4a, and in that case, the state during the pulling out motion of the piercing portion is shown. FIG. 6 is a cross-sectional view showing another embodiment with a sealing member, along with the altered position of the membrane. It is sectional drawing which shows the other embodiment which does not have a membrane and has a sealing member. FIG. 6 is a cross-sectional view showing another embodiment having a special ring groove geometric arrangement of two sealing members and a flap made of foil material. FIG. 6 is a cross-sectional view showing another embodiment modified for the solution shown in FIG. 7, having a special ring groove geometry of the two sealing members and a flap made of foil material. FIG. 6 is a cross-sectional view showing another embodiment with two sealing members having a plug-shaped geometric arrangement mounted on the container shown in FIG. 1a. FIG. 6 is a cross-sectional view showing another embodiment with two sealing members having a plug-shaped geometric arrangement mounted on the container shown in FIG. 1b.

1a and 1b show two embodiments of the plastic container 2 according to the invention, each of which has a bag-shaped container body 4 and an edge portion 14, in the form of a self-known injection container. .. In the example of FIG. 1a, the head portion 6 has a flexible head membrane 8 integral with the rest of the container wall, the head membrane forming a removal area for the removal process of the container contents. There is. This type of container can be formed by a known blow molding-filling-sealing method (BFS method). In the example shown in FIG. 1b, the head portion 6 and the container 4 associated therewith are open, and this type of container is subjected to a blow molding method known per se, preferably by a stretch blow method or an injection stretch blow method. It is formed.

2 and 3a and 3b each show a cap portion 10-preferably made of a hard plastic material-where the cap portion has the shape of a circular cup with a size and overall bottom 12. And has a removable flap 30. In FIGS. 3a and 3b, the cap portion is fixed to the end edge portion 14 projecting in the radial direction in the head portion 6 of the container 2 shown in FIG. 1a by a material bond. Between the inside of the bottom 12 of the cap portion 10 and the head membrane 8 is contained at least one sealing portion 16 that allows for reliable removal of the filling in the container 2, which sealing portion is for the removal process. It forms a component of the device that is piercable by the piercing portion 22 and makes it difficult to remove the piercing portion 22 from the container 2, and at the same time forms a seal at the piercing portion 22. Therefore, the seal portion 16 is formed of an elastomeric material having a small rigidity and a small hardness. Materials are particularly well suited for this purpose, such as halogenobutyl rubber, synthetic rubbers such as polyisoprene, thermoplastic elastomers, silicon, natural rubbers and nitrile rubbers. A thermoplastic elastomer is preferably used. This is because it is bonded to the cap portion by welding, for example, with a material bond. 3a and 3b each show the geometric arrangement of the seal portion 16, which is aligned with the bottom 12 of the cap portion 10 with respect to the passage opening 18 of the cap portion 10. ..

The passage opening 18 in the bottom 12 of the cap portion 10 is covered by a flap portion 30 towards the periphery-solid in the example of FIG. 3a-consisting of foil in the example of FIG. 3b. The flap portion can be removed from the upper edge or 36 of the passage opening 18 to release the passage opening 18 prior to the removal process. In both cases, having the diameter above the passage opening 18 as small as possible is extremely effective, which allows the user to easily remove the flap 30.

The seal portion 16 has a piercing membrane 24 connected to the flap (30) side, which is penetrated during the removal process. The seal portion 16 has a central recess 20 on the head membrane (8) side that is aligned with the passage opening 18 for the puncture portion 22 (FIGS. 4a and 4b) of the injection device. The axially projecting seal ring geometric arrangement 28 of the seal portion 16 covers the extraction region of the container head portion 6 in the head membrane 8.

The geometry and especially the diameter of the passage opening 18 is as follows compared to the diameter of the piercing portion 22, ie, as shown in FIG. 4a, when the piercing portion 22 enters its outer peripheral surface and the passage opening. It is selected so that an annular passage 32 is formed between the portion 18 and the portion 18. As shown in FIG. 4b, which shows the state immediately after the start of pulling out the piercing portion 22, the annular passage 32 is filled with the elastically deformed, extruded material of the sealing portion 16 that occurs during the pulling motion. This enables additional frictional force between the piercing portion 22 and the bottom 12 of the cap portion 10, and the extruded material in this case rises outward of the bottom 12 as other blocking friction zones. The shape of the overhang 34 is formed.

FIG. 5 shows a special embodiment in which the seal portion 16 has a recess 20 and a closed ridged geometry 26 positioned directly at the passage opening 18, which is free of charge. The inner diameter is much smaller than the diameter of the passage opening 18. The material 12 and 26 of the sealing portion thus moved during the pulling motion are pulled into the annular passage 32 (see FIG. 4b) and thus an additional frictional force is provided to prevent further pulling of the piercing portion 22. validate. The other seal ring geometric arrangement 28 extends from the peripheral edge of the membrane 24 toward the head membrane 8 of the container head portion 6.

FIG. 6 shows another special embodiment similar to FIG. 5, in which the sealing portion 16 has a passage 19 rather than a membrane. This allows for minimal piercing force and at the same time allows for high pull-out prevention due to the closed raised geometric arrangement 26 of the sealing portion 16 in the vicinity of the passage opening 18 in the cap portion 10.

FIG. 7 shows another preferred embodiment similar to FIG. 3b, having two separate equal sealing portions 16. The passage opening 18 in the cap portion 10 is formed in a conical shape, which facilitates attachment of each seal portion 16 or seal member within the cap portion 10. By filling the passage opening 18 almost completely with the seal portion 16, the annular passage 32 is formed shallower than in the embodiment shown in FIG. 4a, but surprisingly, the piercing portion 22 is pulled out. At this time, the filling of the annular passage 32 by the raised overhang 34 as in FIG. 4b and the prevention of pulling out according to the present invention are brought about. The circumferential annular groove 39 in the seal member 16 acts to reduce the piercing force. This is because the piercing portion 22 allows for lateral elastic movement / extrusion of the sealing portion 16.

FIG. 8 shows another special embodiment similar to FIG. 7, which also has a conical geometry of the passage opening 18 and two separate equal sealing portions 16, but the example of FIG. The seal ring geometric arrangement 28 is thinner than that of.

9a or 9b show another special embodiment similar to FIG. 7, particularly mounted on the container shown in FIG. 1a (with head membrane 8) or FIG. 1b (without head membrane). It has two separate, equal seal portions 16 with an easily formed geometry.

Surprisingly, it has been shown that the easy removal of the flap portion 30, the small piercing force and the favorable increase in the pulling force of the piercing portion 22 are caused solely by the synergistic cooperation of the following multiple factors:
-1-Material properties of the seal part 16, especially shore hardness,
-2-Geometry of passage openings 18, 36,
-3-Fixing of the seal portion 16 at the bottom 12 of the cap portion 10,
-4-Positioning of the membrane 24 of the sealing portion 16 with respect to the passage opening 18 or its hermetically sealed ridged geometric arrangement 26.

According to the present invention, this can be obtained if:
a) The material for the seal portion 16 has a shore hardness of 10 to 60 shore A, preferably 20 to 50 shore A, particularly preferably 30 to 40 shore A, based on ISO 868, and
b) The diameter of the passage opening 18 is at least 6 mm and a maximum of 8 mm, preferably at least 6.2 mm and a maximum of 7.0 mm, particularly preferably at least 6.2 mm and a maximum of 6.8 mm, and
c) The elastomer seal portion 16 fills the passage opening 18 of the cap portion 10, or is at least directly abutted at its edge, and is preferably bonded to the bottom 12 by material bonding, eg, welding or gluing. / Or
d) In the case of the embodiment shown in FIG. 5 or 6, the difference D between the diameter of the passage opening 18 and the free inner diameter in the geometric arrangement 26 of the seal portion 16 is larger than 1.5 mm, preferably more than 2 mm. Large, particularly preferably larger than 2.5 mm.

The reduction of manipulative force in introducing the piercing portion 22 has been successful by a special embodiment of the seal 16, whose membrane 24 is either very thinly formed or weakened, for example by slits or perforations.

For example, as shown in FIGS. 3a and 3b, in addition to the sealing portion 16 in the cap housing, a plug-shaped sealing portion 38 of the second elastomer can be provided in another passage opening in the cap portion 10. , It is also covered by the flap portion 30. This sealing portion 38 also has an axially overhanging seal ring shaped geometry for attachment to the head membrane 8 of the container head portion 6, the sealing portion 38 for supplying additives to the container contents or. It can be pierced to remove the filling by the infusion cannula.

Example:
The following examples (Experiment Nr. 1-Nr. 43) are used to further illustrate the invention. Formed from Lyondell Basell's polypropylene Purell RP270G, having various free inner diameters of sealed ridge geometry 26 into the cap portion 10 shown in FIG. 6, having different diameters of the passage opening 18. And an elastomer sealant 16 made of various elastomers with various shore hardness was inserted and coupled to the bottom 12 of the cap portion 10. When polyisoprene was used as the sealing member 16, the sealing member was adhered, and when a thermoplastic elastomer (TPE) was used, the sealing member was press-fitted into the cap portion 10 and then welded by a laser beam.

The cap portion was not welded onto the vessel and was tested without it so that the piercing force could be measured regardless of the vessel head membrane 8.

Maximum penetrating force (piercing force) and dynamic holding strength (pulling force) vary by class 1 universal testing machine based on -ISO 750-1 as described in detail in -DIN ISO 15759. It was sought using a non-used piercing portion common on the market, similar to ISO 8536-4, with a reference protrusion from the manufacturer and based on DIN ISO 15759 Appendix 1. It has three different outer diameters (5.4 mm, 5.6 mm and 6.0 mm). The test speed was 200 millimeters per minute based on the standard EN ISO 15747: 2012.

As a result, the respective mean values of the 5 to 10 measurements, respectively, are summarized in the table below, the fourth column (column D) minus the free inner diameter of the seal portion 16 in the geometric arrangement 26. , Calculated from the flap-side diameter of the passage opening 18.

A very preferable ratio of the pulling force A to the piercing force E is that, according to the present invention, the material for the sealing portion has a hardness of 30 to 40 shore A and the diameter of the passing opening in the cap portion is 6.2 mm. It is obtained when it is between 6.8 mm and the difference D is at least 2.5 mm.
The embodiments of the present invention include the following.
[Embodiment 1]
A container consisting of at least a partially filled container body (4) and at least one cap portion (10), wherein the cap portion has at least one sealed portion (16) and the sealed portion is a container. In order to take out the contents, the hollow protrusion-shaped piercing portion (22) can be penetrated by an operating force that can be predetermined in the intrusion direction from the outside, and the piercing portion can be predetermined in the opposite pulling direction. In things that can be removed from the container (2) again by force
Devices (16, 18, 26, 32) are provided that make it difficult to remove the piercing portion (22) so that the device provides a pulling force that at least makes unintended removal of the piercing portion (22) difficult. A container characterized by being enhanced.
[Embodiment 2]
The first embodiment is characterized in that the container is formed by blow molding-, filling-and sealing methods, and the end side of the container is closed by at least one punchable head membrane (8). The container described.
[Embodiment 3]
When the seal portion (16) is penetrated into the cap portion (10) as follows, that is, when the seal portion (16) as a component of the device (16, 18, 26, 32) is penetrated, the cap portion (10) is penetrated. ) Is accommodated so that there is a radial gap between the passage opening (18) and the inserted piercing portion (22).
At least when the piercing portion (22) is removed from the container (2) in the pull-out direction, the annular passage (32) is at least partially filled with the sealing portion (16) of the device. However, when the piercing portion (22) is taken out of the container (2), the friction to the piercing portion is increased at least in a region.
The container according to the first or second embodiment.
[Embodiment 4]
The passage opening (18) in the cap portion (10), together with the outer circumference of the inserted piercing portion (22), forms an annular passage (32) having a predetermined axial length, said annular. The passage forms another portion (26, 18, 26, 32) of the device (16, 18, 26, 32) while forming a raised overhang (34) with respect to the perimeter when the piercing portion (22) is removed from the container (2). 1), wherein the device provides an additional tightening force to the piercing portion (22) as if it were tightened in the annular passage (32). The container described in the section.
[Embodiment 5]
The seal portion (16) is preferably made of an elastomeric material, the seal portion extending between the cap portion (10) and the head portion (6) of the container (2), and within the cap portion (10). An embodiment having a recess (20) coaxially arranged with respect to the passage opening (18), wherein the axial extension of the recess is continuous with the passage opening (18). The container according to any one of embodiments 1 to 4.
[Embodiment 6]
The sealing portion (16) is preferably made of an elastomeric material, the sealing portion extending between the cap portion (10) and the head membrane (8) of the head portion (6) of the container (2), and the cap. It has a passage (19) coaxially arranged with respect to the passage opening (18) in the portion (10), and an axial extension of the passage is continuous with the passage opening (18). The container according to any one of embodiments 1 to 5, wherein the container is characterized by the above.
[Embodiment 7]
The seal portion (16) has a ring raised partial geometric arrangement (26), the partial geometric arrangement projecting radially inward in the recess (20) or passage (19) and piercing to be pulled out. Item 1. The container described.
[Embodiment 8]
Embodiments 1 to 7 are characterized in that the recesses (20) of the sealing portions (16, 26) are closed by the piercing membrane (24), and the piercing membrane can be penetrated by the piercing portion (22). The container according to any one of the above items.
[Embodiment 9]
The head membrane (16, 26) is an extension of the recess (20) or in the passage (19) at the end of the container (2) towards the head membrane (8) of the head portion (6) of the container (2). The container (2) has another ring-shaped partial geometric arrangement (28) that overhangs in the direction of 8), wherein the partial geometric arrangement is at least when the piercing portion (22) is inserted. The container according to any one of embodiments 1 to 8, wherein the head membrane (8) is supported so as to be hermetically sealed on the facing upper side thereof.
[Embodiment 10]
The item according to any one of embodiments 1 to 9, wherein the passage opening (18) of the cap portion (10) is sealed toward the periphery by a removable flap portion (30). container.
[Embodiment 11]
The container according to any one of embodiments 1 to 10, wherein the removable flap portion (30) is formed of foil.
[Embodiment 12]
Any of embodiments 1 to 11, wherein the cap portion (10) is coupled to the edge portion (14) of the container (2) below the head portion (6) of the container (2). Or the container according to item 1.
[Embodiment 13]
Any of embodiments 1-12, characterized in that at least one other sealing portion (38) is housed within the cap portion (10), such as a sealing member provided for a cannula passage. The container according to item 1.
[Embodiment 14]
In the cap portion (10) for the container according to any one of embodiments 1 to 13.
The cap portion has an elastomer seal portion (16) with a recess (20), the recess is closed by a piercing membrane (24), and the piercing membrane acts radially on the ring-shaped portion. A cap portion for a container, characterized in that the geometric arrangement (26) is separated from the axially acting seal ring shaped partial geometric arrangement (28) of the sealing portion (16).
[Embodiment 15]
10. The cap portion (10) for a container according to embodiment 14, wherein the elastomer seal portion (16) has an annular groove (39) that is at least partially circular.
[Embodiment 16]
Embodiment 14 or embodiment characterized in that the material for the sealing portion (16) has a shore hardness of 10 to 60 shore A, preferably 20 to 50 shore A, particularly preferably 30 to 40 shore A. The cap portion (10) for the container according to 15.
[Embodiment 17]
The flap-side diameter of the passage opening (18) is at least 6 mm and up to 8 mm, preferably at least 6.2 mm and up to 7.0 mm, particularly preferably at least 6.2 mm and up to 6.8 mm. The cap portion (10) for a container according to any one of embodiments 14 to 16, wherein the cap portion (10) for a container.
[Embodiment 18]
It is characterized in that the elastomer seal portion (16) is bonded by material bonding, for example by welding or gluing, so as to be directly adjacent to the bottom (12) of the cap portion (10) and the passage opening (18). The cap portion (10) for a container according to any one of embodiments 14 to 17.
[Embodiment 19]
The difference D between the flap-side diameter of the passage opening (18) and the free inner diameter of the sealing portion (16) in the geometric arrangement (26) is greater than 1.5 mm, preferably greater than 2 mm, particularly preferably. The cap portion (10) for a container according to any one of embodiments 14 to 18, characterized in that it is larger than 2.5 mm.
[Embodiment 20]
The cap for a container according to any one of embodiments 14 to 19, wherein the passage opening (18) is formed so as to taper toward the flap (30). Part (10).
[Embodiment 21]
10. The cap portion (10) for a container according to any one of embodiments 14 to 20, wherein the passage opening (18) is at least partially filled with a sealing portion (16) of the elastomer. ).

Claims (21)

A container comprising at least a partially filled container body (4), at least one cap portion (10) and at least one sealing portion (16) , wherein the at least one sealing portion (16) is said to be said. A cap portion (10) is provided, and the seal portion (16) is provided with an operating force that can be predetermined from the outside in the intrusion direction by a hollow protrusion-shaped piercing portion (22) for taking out the contents of the container. In the case where the piercing portion can be penetrated and can be taken out from the container (2) again by a pulling force that can be predetermined in the opposite pulling direction.
Devices (16, 18, 26, 32) are provided that make it difficult to remove the piercing portion (22) so that the device provides a pulling force that at least makes unintended removal of the piercing portion (22) difficult. , Elevated ,
The device (16, 18, 26, 32) has the seal portion (16).
The material for the sealing portion (16) has a shore hardness of 10 to 60 shore A and
The diameter of the passage opening (18) in the cap portion (10) is at least 6 mm and at most 8 mm, and
The seal portion (16) fills the passage opening (18) of the cap portion (10), or is at least directly abutted at the edge thereof and is coupled to the bottom (12) of the cap portion (10). Cap and / or
The seal portion (16) has a closed ridged geometric arrangement (26) with a diameter of the passage opening (18) and a free inner diameter of the seal portion (16) in the geometric arrangement (26). The difference (D) is larger than 1.5 mm, the container. The container according to claim 1 , wherein the container is formed by a blow molding-filling-sealing method and the end side of the container is closed by at least one punchable head membrane (8). When the seal portion (16) is penetrated into the cap portion (10) as follows, that is, when the seal portion (16) as a component of the device (16, 18, 26, 32) is penetrated, the cap portion (10) is penetrated. ) Is accommodated so that there is a radial gap between the passage opening (18) and the inserted piercing portion (22).
The passage opening (18) in the cap portion (10), together with the outer circumference of the inserted piercing portion (22), forms an annular passage (32) having a predetermined axial length. At least when the piercing portion (22) is removed from the container (2) in the withdrawal direction, the annular passage (32) is at least partially filled with the sealing portion (16) of the device. The container according to claim 1 or 2, wherein the device increases the friction to the piercing portion at least in a region when the piercing portion (22) is removed from the container (2). The annular passage (32) forms a raised overhang (34) with respect to the periphery when the piercing portion (22) is taken out from the container (2), and the device (16, 18, 26, 32). The container according to claim 3 , which is completely filled by another portion (26) and provides an additional tightening force to the piercing portion (22) such that the device tightens in the annular passage (32). The seal portion (16) is made of an elastomeric material, the seal portion extends between the cap portion (10) and the head portion (6) of the container (2), and passes through the cap portion (10). The container according to claim 4 , which has a recess (20) coaxially arranged with respect to the opening (18), and an axial extension of the recess is continuous with the passage opening (18). .. The sealing portion (16) is made of an elastomer material, and the sealing portion extends between the cap portion (10) and the head membrane (8) of the head portion (6) of the container (2), and the cap portion. Claimed to have a passage (19) coaxially arranged with respect to the passage opening (18) in (10), the axial extension of the passage being continuous with the passage opening (18). Item 5. The container according to item 5. The seal portion (16) has a ring raised partial geometric arrangement (26), the partial geometric arrangement projecting radially inward in the recess (20) or passage (19) and piercing to be pulled out. The container according to claim 6 , wherein the container can be pushed so as to be tightened in the direction of the annular passage (32) of the passage opening (18) by the action of the portion (22). The container according to claim 7 , wherein the recess (20) of the sealing portion (16, 26) is closed by the piercing membrane (24), and the piercing membrane can be penetrated by the piercing portion (22). The head membrane (16, 26) is an extension of the recess (20) or in the passage (19) at the end of the container (2) towards the head membrane (8) of the head portion (6) of the container (2). The container (2) has another ring-shaped partial geometric arrangement (28) that overhangs in the direction of 8), wherein the partial geometric arrangement is at least when the piercing portion (22) is inserted. The container according to claim 8 , which is supported so as to be hermetically sealed on the facing upper side of the head membrane (8) of the above. The container according to claim 9 , wherein the passage opening (18) of the cap portion (10) is sealed toward the periphery by a removable flap portion (30). The container according to any one of claims 1 to 10, wherein the removable flap portion (30) is formed of foil. Any of claims 1 to 11, wherein the cap portion (10) is coupled to the edge portion (14) of the container (2) below the head portion (6) of the container (2). The container according to item 1. The container according to any one of claims 1 to 12, wherein at least one other sealing portion (38) is housed in the cap portion (10). In the cap portion (10) for the container according to any one of claims 10 to 13, the cap portion has a seal portion (16), and the seal portion (16) is the cap portion. It is provided in (10) and can be penetrated by a piercing portion (22), the sealing portion (16) is provided with a recess (20), and the recess (20) is closed by a piercing membrane (24). , The piercing membrane (24) has a ring-shaped partial geometrical arrangement (26) that acts in the radial direction, and the seal portion (16) has a seal ring-shaped partial geometrical arrangement (28) that acts in the axial direction. ) Is separated from
A device (16, 18, 26, 32) is provided that makes the removal of the piercing portion (22) more difficult, and the device (16, 18, 26, 32) exerts a pulling force on the piercing portion (22). Elevated so that unintentional removal is at least more difficult,
The device (16, 18, 26, 32) has the seal portion (16).
The material for the sealing portion (16) has a shore hardness of 10 to 60 shore A and
The diameter of the passage opening (18) in the cap portion (10) is at least 6 mm and at most 8 mm, and
The seal portion (16) fills the passage opening (18) of the cap portion (10), or is at least directly abutted at the edge thereof and is coupled to the bottom (12) of the cap portion (10). Cap and / or
The seal portion (16) has a closed ridged geometric arrangement (26) with a diameter of the passage opening (18) and a free inner diameter of the seal portion (16) in the geometric arrangement (26). Cap portion for the container, where the difference (D) is greater than 1.5 mm . The cap portion (10) for a container according to claim 14 , wherein the elastomer seal portion (16) has at least a partial circumferential annular groove (39). The cap portion (10) for a container according to claim 14 or 15 , wherein the material for the seal portion (16) has a shore hardness of 20 to 50 shore A. 10. The cap portion (10) for a container according to any one of claims 14 to 16, wherein the flap side diameter of the passage opening (18) is at least 6.2 mm and at most 7.0 mm . ). 14. The elastomer seal portion (16) is bonded by material bonding , eg, welding or gluing, so that it is directly adjacent to the bottom (12) of the cap portion (10) and the passage opening (18). The cap portion (10) for the container according to any one of 17 to 17. 1 _ _ The cap portion (10) for the container as described in the section. The cap portion (10) for a container according to any one of claims 14 to 19 , wherein the passage opening (18) is formed so as to taper toward the flap (30). The cap portion (10) for a container according to any one of claims 14 to 20, wherein the passage opening (18) is at least partially filled with a sealing portion (16) of the elastomer.

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